The patterns of vegetation recovery in shifting cultivation landscapes that undergo a cycle of clearing,
cultivation and forest regeneration are not well understood in Asian tropical forests. We determined for-
est recovery patterns by comparing species composition, richness and forest structure in early and late
fallows formed following shifting cultivation and in an uncut forest site in a mid-elevation subtropical
forest in the Indian Eastern Himalaya. We also examined changes in functional traits of tree species to
understand recovery processes with succession. Tree species richness in the 12, 25 and 50-year old sites
was 37%, 54% and 82% the value of the richness in uncut forest, respectively, while basal area was 33%,
25% and 41% of the value in uncut forest, respectively. Species composition recovery, however, was
low; with even the oldest fallow (50-year fallow) being less than 50% similar to uncut forest in terms
of composition. Successional sites that recover over long periods may differ compositionally from uncut
forest within a shifting cultivation landscape as these forests are often prone to other anthropogenic dis-
turbances. Functional trait analysis revealed that early fallows were colonized by tree species that are
animal-dispersed, insect-pollinated with small fruits and seeds, whereas uncut forest and late succes-
sional forests were dominated by species that were tall, self-dispersed, wind-pollinated and of high wood
density that are dominant mature forest species in the Himalaya. These results are in contrast with the
patterns in functional traits of tree species in successional sites from the Neotropics. This points to the
importance of site-specificity in succession following shifting cultivation.

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